ILLUMINATION APPARATUS AND IMAGE PICKUP APPARATUS
The illumination apparatus includes a reflector unit to reflect a light flux from a light source. The reflector unit includes a first reflector and a second reflector whose relative positions are changeable to change an illumination angle. At a first illumination angle, the second reflector is disposed inside the first reflector, and the light flux from the light source is reflected by the second reflector to exit from the reflector unit. At a second illumination angle smaller than the first illumination angle, the first reflector is disposed further on a light exit side than the second reflector, and the light flux from the light source is reflected by at least one of the first and second reflectors to exit from the reflector unit. A distance between the light source and the second reflector at the second illumination angle is shorter than that at the first illumination angle.
1. Field of the Invention
The present invention relates to an illumination apparatus, and particularly to an illumination apparatus to be used with image pickup apparatuses, such as digital still cameras and video cameras, to illuminate a predetermined area as an auxiliary light source.
2. Description of the Related Art
Electronic flash apparatuses as illumination apparatuses whose illumination angle is changeable with focal length of an image pickup lens. For example, Japanese Patent Laid-Open No. 09-138449 discloses a flash apparatus in which a light source and a movable reflector are integrally moved to change an illumination angle. In this flash apparatus, light proceeding toward outside the movable reflector is reflected by a fixed reflector to prevent loss of light quantity.
Moreover, Japanese Patent Laid-Open No. 2005-043688 discloses a flash apparatus in which a light diffuser provided with concave cylindrical lenses and convex Fresnel lenses is disposed further on an object side than a reflector to compensate for lack of light distribution to a peripheral part of an illumination area.
However, with increase of zoom ratio of image pickup lenses, a flash apparatus having a larger changeable range of the illumination angle is required.
SUMMARY OF THE INVENTIONThe present invention provides an illumination apparatus whose illumination angle is changeable in a large range and an image pickup apparatus with the flash apparatus.
The present invention provides as one aspect thereof an illumination apparatus including a light source, and a reflector unit to reflect a light flux from the light source. The reflector unit includes a first reflector and a second reflector whose relative positions on an illumination axis are changeable to change an illumination angle of the illumination apparatus. When the illumination angle is a first illumination angle, the second reflector is disposed inside the first reflector, and the light flux entering the reflector unit from the light source is reflected by the second reflector to exit from the reflector unit. When the illumination angle is a second illumination angle smaller than the first illumination angle, the first reflector is disposed further on a light exit side than the second reflector, and the light flux entering the reflector unit from the light source is reflected by at least one of the first and second reflectors to exit from the reflector unit. A distance on the illumination axis between the light source and the second reflector when the illumination angle is the second illumination angle is shorter than that when the illumination angle is the first illumination angle.
The present invention provides as another aspect thereof an image pickup apparatus including the above-described illumination apparatus, and an image sensor to capture an object illuminated with light from the illumination apparatus.
Further features of the present invention will become apparent from the following description of exemplary embodiments with reference to the attached drawings.
Exemplary embodiments of the present invention will hereinafter be described with reference to the accompanying drawings.
(Image Pickup Apparatus)An image pickup apparatus 50 shown in
The illumination angle-changeable flash 10 shown in
The flash 10 changes relative positions of the light source 1, the second reflector 2 and the light diffuser unit 3 fixed with respect to the first reflector 6 on an illumination axis IA to change its illumination angle that is an angular area where the illumination light emitted from the flash 1 is projected. The illumination axis IA is a virtual straight line passing through a radial center of the light source 1 and a vertical center of the light diffuser unit 3 as shown in
The first reflector 6 has, as a reflective surface, an inner surface formed in a horizontally long truncated pyramid shape. The light diffuser unit 3 is disposed so as to face a light exit side opening of the first reflector 6 (that is, so as to be located further on a light exit side than the first reflector 6). In a state shown in
The second reflector 2 has, as a reflective surface, an inner surface formed to be horizontally long and having a parabolic vertical sectional shape. In the sectional views of
At the wide-angle end, as shown in
On the other hand, at the telephoto end at which the illumination angle is smaller than that at the wide-angle end, as shown in
In this embodiment, a distance LT on the illumination axis between the light source 1 and the second reflector 2 at the telephoto end is shorter than a distance LW on the illumination axis therebetween at the wide-angle end. Setting the distance between the light source 1 and the second reflector 2 relatively short at the telephoto end at which the illumination angle is smaller than that at the wide-angle end enables bright illumination for a limited illumination area corresponding to a long focal length of an image pickup lens with a high zoom ratio.
(Light Diffuser Unit)The light diffuser unit 3 is constituted by a first light diffuser 4 disposed on a light source side and a second light diffuser 5 disposed on an opposite side to the light source side (that is, on the light exit side). The light diffuser unit 3 has a function of diffusing light at least in the vertical direction (corresponding to a first direction) in a normal use state of the image pickup apparatus shown in
The light source side surface of the first light diffuser 4 is provided with planar surfaces 14 formed in its peripheral parts in a longitudinal direction in which the line light source 1 extends (corresponding to a second direction and hereinafter referred to as “the horizontal direction”) and with a first light diffusing portion 13 formed in part other than the planar surfaces 14. The first light diffusing portion 13 is constituted by a plurality of concave cylindrical lenses 19. As shown by a sectional view in
Such unevenness of illumination light (light distribution unevenness) that can be suppressed by the flash 10 of this embodiment cannot be suppressed by conventional flashes. For example, the flash disclosed in Japanese Patent Laid-Open No. 09-138449 generates light distribution unevenness due to light rays reflected by a seam portion of the movable reflector and the fixed reflector at unexpected reflection angles. The flash disclosed in Japanese Patent Laid-Open No.2005-043688 generates light distribution unevenness in which upper and lower high intensity illumination areas separately exist and a central dark area exists therebetween.
The opposite-to-light source side surface of the first light diffuser 4 is provided with a first light collecting portion 11 in its central part in the horizontal direction and with second light collecting portions 12 in its peripheral parts in the horizontal direction. The first light collecting portion 11 is constituted by a plurality of convex prisms 21. As shown by a sectional view in
The light source side surface of the second light diffuser 5 is provided with a second light diffusing portion 17 formed in its central part and with third light collecting portions 18 at its four corner parts. The second light diffusing portions 17 are each constituted by a plurality of concave cylindrical lenses 20. As shown by a sectional view in
Moreover, as shown in
When R1 represents a curvature radius of each concave cylindrical lens 19 formed in the first light diffusing portion 13 (shown in
A value of |LT-LW|/R1 below the lower limit of the condition (1) makes the light diffusing effect of the first light diffusing portion 13 insufficient, which causes the light distribution unevenness to remain. On the other hand, a value of |LT-LW|/R1 beyond the upper limit of the condition (1) makes the light diffusing effect of the first light diffusing portion 13 excessively strong, which decreases a guide number on the telephoto side. In other words, in order to reduce the light distribution unevenness and provide a sufficient guide number, it is desirable to satisfy the condition (1).
Moreover, when R2 represents a curvature radius of each concave cylindrical lens 20 formed in the second light diffusing portion 17 (shown in
A value of |LT-LW|/R2 below the lower limit of the condition (2) makes the light diffusing effect of the second light diffusing portion 17 insufficient, which causes the light distribution unevenness to remain. On the other hand, a value of |LT-LW|/R2 beyond the upper limit of the condition (2) makes the light diffusing effect of the second light diffusing portion 17 excessively strong, which decreases the guide number on the telephoto side. In other words, in order to reduce the light distribution unevenness and provide a sufficient guide number, it is desirable to satisfy the condition (2).
MODIFIED EXAMPLEAlthough the above embodiment described the flash 10 in which the second reflector 2 is moved with respect to the first reflector 6 and the light diffuser unit 3, other configurations may be employed. For example, the first reflector 6 and the light diffuser unit 3 may be integrally moved with respect to the second reflector 2. Moreover, the first reflector 6 and the second reflector 2 may be moved by mutually different movement amounts.
While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. The scope of the following claims is to be accorded the broadest interpretation so as to encompass all such modifications and equivalent structures and functions.
This application claims the benefit of Japanese Patent Application No. 2012-146653, filed Jun. 29, 2012, which is hereby incorporated by reference herein in its entirety.
Claims
1. An illumination apparatus comprising:
- a light source; and
- a reflector unit to reflect a light flux from the light source,
- wherein the reflector unit comprises a first reflector and a second reflector whose relative positions on an illumination axis are changeable to change an illumination angle of the illumination apparatus,
- wherein, when the illumination angle is a first illumination angle, the second reflector is disposed inside the first reflector, and the light flux entering the reflector unit from the light source is reflected by the second reflector to exit from the reflector unit,
- wherein, when the illumination angle is a second illumination angle smaller than the first illumination angle, the first reflector is disposed further on a light exit side than the second reflector, and the light flux entering the reflector unit from the light source is reflected by at least one of the first and second reflectors to exit from the reflector unit, and
- wherein a distance on the illumination axis between the light source and the second reflector when the illumination angle is the second illumination angle is shorter than that when the illumination angle is the first illumination angle.
2. An illumination apparatus according to claim 1, further comprising a light diffuser unit disposed further on the light exit side than the reflector unit,
- wherein the light source is a line light source, and the light diffuser unit provides a light diffusing effect in a first direction orthogonal to a second direction in which the line light source extends and orthogonal to a direction in which the illumination axis extends.
3. An illumination apparatus according to claim 2, wherein the light diffuser unit comprises a first light diffuser, and
- wherein the first light diffuser is provided with, in its light source side surface, a first light diffusing portion providing a light diffusing effect in the first direction and with, in its opposite side surface to the light source side surface, a first light collecting portion providing a light collecting effect in the first direction and a second light collecting portion providing a light collecting effect in a direction toward the illumination axis.
4. An illumination apparatus according to claim 3, wherein the light diffuser unit further comprises a second light diffuser disposed further on the light exit side than the first light diffuser,
- wherein the second light diffuser is provided with, in its light source side surface, a third light collecting portion providing a light collecting effect in the first direction and a second light diffusing portion providing a light diffusing effect in the first direction and with, in its opposite side surface to the light source side surface, a fourth light collecting portion providing a light collecting effect in the second direction.
5. An illumination apparatus according to claim 4, wherein the first and second light diffusing portions are each formed by a plurality of concave cylindrical lenses, and 0.2 < L T - L W R 1 < 5, and the second light diffusing portion satisfies the following condition: 0.2 < L T - L W R 2 < 5 where LW represents a distance on the illumination axis between the light source and the second reflector when the illumination angle is its maximum angle, LT represents a distance on the illumination axis between the light source and the second reflector when the illumination angle is its minimum angle, R1 represents a curvature radius of each of the concave cylindrical lenses of the first light diffusing portion, and R2 represents a curvature radius of each of the concave cylindrical lenses of the second light diffusing portion.
- wherein the first light diffusing portion satisfies the following condition:
6. An image pickup apparatus comprising:
- an illumination apparatus, and
- an image sensor to capture an object illuminated with light from the illumination apparatus,
- wherein the illumination apparatus comprises:
- a light source; and
- a reflector unit to reflect a light flux from the light source,
- wherein the reflector unit comprises a first reflector and a second reflector whose relative positions on an illumination axis are changeable to change an illumination angle of the illumination apparatus,
- wherein, when the illumination angle is a first illumination angle, the second reflector is disposed inside the first reflector, and the light flux entering the reflector unit from the light source is reflected by the second reflector to exit from the reflector unit,
- wherein, when the illumination angle is a second illumination angle smaller than the first illumination angle, the first reflector is disposed further on a light exit side than the second reflector, and the light flux entering the reflector unit from the light source is reflected by at least one of the first and second reflectors to exit from the reflector unit, and
- wherein a distance on the illumination axis between the light source and the second reflector when the illumination angle is the second illumination angle is shorter than that when the illumination angle is the first illumination angle.
Type: Application
Filed: Jun 25, 2013
Publication Date: Jan 2, 2014
Patent Grant number: 8964111
Inventor: Seiji Nakahara (Sakura-shi)
Application Number: 13/926,576
International Classification: H04N 5/225 (20060101); F21V 13/04 (20060101);